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Nanoscale Thermal Analysis
NanoScale Thermal Analysis is an AFM Mode that gathers thermal conductivity and temperature maps of a sample. This mode uses standard Silicon AFM tips with a resistive heater incorporated at the end of the cantilever.
Frequency
Nom: 50KHz
Spring Const.
Nom: 0.5N/m
Geometry
Thermal
Tip Radius
<100nm
Frequency
Nom: 50KHz
Spring Const.
Nom: 0.5N/m
Geometry
Thermal
Tip Radius
<100nm
Frequency
Nom: 78KHz
Spring Const.
Nom: 2.5N/m
Geometry
Thermal
Tip Radius
<30nmMaterial
Silicon
Frequency
Nom: 0KHz
Spring Const.
Nom: 0N/m
Geometry
Thremal
Tip Radius
<30nmMaterial
Silicon
Frequency
Nom: 78KHz
Spring Const.
Nom: 2.5N/m
Geometry
Thermal
Tip Radius
<30nmMaterial
Silicon
Frequency
Nom: 50KHz
Spring Const.
Nom: 0.5N/m
Geometry
Thermal
Tip Radius
<100nm
Frequency
Nom: 0KHz
Spring Const.
Nom: 0N/m
Geometry
Thermal
Tip Radius
<30nmMaterial
Silicon
Frequency
Nom: 0KHz
Spring Const.
Nom: 0N/m
Geometry
Thermal
Tip Radius
<30nmMaterial
Silicon
Frequency
Nom: 78KHz
Spring Const.
Nom: 2.5N/m
Geometry
Thermal
Tip Radius
<30nmMaterial
Silicon
Frequency
Nom: 78KHz
Spring Const.
Nom: 2.5N/m
Geometry
Rectangular
Tip Radius
15.0nmMaterial
Single Crystal Si
Coating
B: Optional Reflective Film to increase signal
Frequency
Nom: 30KHz
Spring Const.
Nom: 0.35N/m
Geometry
Rectangular
Tip Radius
15.0nmMaterial
Single Crystal Si
Coating
B: Optional Reflective Film to increase signal